Particulate matter detection element and method of manufacturing same

What is claimed is: 1. A particulate matter detection element for detecting particulate matter contained in a measured gas comprising: an electrode layer laminated body which is made up of a plurality of first electrode layers, a plurality of second electrode layers, and a plurality of intermediate insulating layers, the first electrode layers and the second electrode layers being stacked to overlap each other in a lamination direction with each of the intermediate insulating layers being disposed between one of the first electrode layers and an adjacent one of the second electrode layers, thereby forming a detection surface and a mounting surface of the electrode layer laminated body, the detection surface and the mounting surface being opposed to each other through a thickness of the electrode layer laminated body in a direction perpendicular to the lamination direction and towards an electrode drawing layer, the electrode drawing layer including a first electrical conductor and a second electrical conductor configured to transmit a signal via an electrical connection, the signal representing one of a resistance, a capacitance and a impedance between each of the first electrode layers and an adjacent one of the second electrode layers as an electrical characteristic varying depending on an amount of particulate matter present between the pair of the detection electrodes; wherein the first and second electrode layers and the intermediate insulating layers each have a plate-like shape and a thickness in a range between 3 μm and 20 μm, the detection surface of the electrode layer laminated body is exposed to outside, the mounting surface is in physical contact with an insulating substrate, and the first electrode layers are electrically connected to the first electrical conductors through respective electrical joints, and the second electrode layers are electrically connected to the second electrical conductor through respective electrical joints. 2. The particulate matter detection element according to claim 1 , further comprising a first end-portion insulating layer covering one end of the first electrode layer on a first side of the electrode laminated body, and a second end-portion insulating layer covering one end of the second electrode layer on a second side opposite to the first side of the electrode laminated body, so that the first electrode layer is electrically connected externally and the second electrode layer is insulated from outside on the second side, and the second electrode layer is electrically connected to outside and the first electrode layer is insulated from outside on the first side. 3. The particulate matter detection element according to claim 2 , further comprising a first electrode connected with the first electrode layer on the second side of the electrode laminated body and a second electrode connected with the second electrode layer on the first side of the electrode laminated body. 4. The particulate matter detection element according to claim 3 , wherein the insulating substrate has a plate-like shape, the electrode drawing layer including: first and second land portions formed on the insulating substrate and holding the electrode laminated body, the first land portion being connected to the first electrode layer, the second land portion being connected to the second electrode layer; first and second lead portions connected to the first land portion and the second land portion, respectively; and first and second terminal portions connected to the first lead portion and the second lead portion, respectively. 5. The particulate matter detection element according to claim 4 , wherein a protection layer having an opening and made of an insulating material is formed on a surface of the insulating substrate so as to cover the detection surface such that only a portion of the detection surface in which the first and second electrode layers and the intermediate insulating layer extend in parallel to one another is exposed from the opening of the protection layer. 6. The particulate matter detection element according to claim 4 , wherein an insulative protection layer having first and second openings is formed on a surface of the insulating substrate such that only a portion in which the first electrode layer and the first land portion are connected to each other is exposed from the first opening, and only a portion in which the second electrode layer and the second land portion are connected to each other is exposed from the second opening. 7. The particulate matter detection element according to claim 1 , wherein the first and second electrode layers are made of a perovskite-type conductive oxide material having an electrical conductivity of higher than 10 −2 S/cm selected from LNF (LaNi 0.6 Fe 0.4 O 3 ), LSN (La 1.2 Sr 0.8 NiO 4 ), LSM (La 1-X Sr X MnO 3-δ ), LSC (La 1-X Sr X CoO 3-δ ), LCC (La 1-X Ca X CrO 3-δ ), and LSCN (La 0.85 Sr 0.15 Cr 1-X Ni X O 3-δ ) (0.1≦X≦0.7). 8. The particulate matter detection element according to claim 1 , wherein the intermediate insulating layer is made of an insulating oxide material having an electrical conductivity of lower than 10 -5 S/cm selected from a partially stabilized zirconia typified by 8YSZ((ZrO 2 2 ) 0.82 (Y 2 O 3 3 ) 0.08 ), MgO and Al 2 O 3 . 9. A particulate matter detection sensor comprising: the particulate material detection element as recited in claim 1 ; and a processor configured to determine an amount of particulate matter collected between the pair of the detection electrodes based on the signal transmitted through the electrode drawing layer. 10. The particulate matter detection element according to claim 1 , wherein the first and second electrode layers each have a thickness in a range between 50 μm and 500 μm.